用氯氟乙酰胺选择性且可逆地修饰激酶半胱氨酸。

Selective and reversible modification of kinase cysteines with chlorofluoroacetamides.

机构信息

Graduate School of Pharmaceutical Sciences, Kyushu University, Fukuoka, Japan.

Institute of Transformative Bio-Molecules (WPI-ITbM), Nagoya University, Nagoya, Japan.

出版信息

Nat Chem Biol. 2019 Mar;15(3):250-258. doi: 10.1038/s41589-018-0204-3. Epub 2019 Jan 14.

DOI:10.1038/s41589-018-0204-3

PMID:30643284

Abstract

Irreversible inhibition of disease-associated proteins with small molecules is a powerful approach for achieving increased and sustained pharmacological potency. Here, we introduce α-chlorofluoroacetamide (CFA) as a novel warhead of targeted covalent inhibitor (TCI). Despite weak intrinsic reactivity, CFA-appended quinazoline showed high reactivity toward Cys797 of epidermal growth factor receptor (EGFR). In cells, CFA-quinazoline showed higher target specificity for EGFR than the corresponding Michael acceptors in a wide concentration range (0.1-10 μM). The cysteine adduct of the CFA derivative was susceptible to hydrolysis and reversibly yielded intact thiol but was stable in solvent-sequestered ATP-binding pocket of EGFR. This environment-dependent hydrolysis can potentially reduce off-target protein modification by CFA-based drugs. Oral administration of CFA quinazoline NS-062 significantly suppressed tumor growth in a mouse xenograft model. Further, CFA-appended pyrazolopyrimidine irreversibly inhibited Bruton's tyrosine kinase with higher target specificity. These results demonstrate the utility of CFA as a new class warheads for TCI.

摘要

小分子不可逆抑制疾病相关蛋白是提高和维持药理学效力的一种有效方法。在这里，我们引入α-氯氟乙酰胺 (CFA) 作为一种新型靶向共价抑制剂 (TCI) 的弹头。尽管 CFA 修饰的喹唑啉内在反应性较弱，但它对表皮生长因子受体 (EGFR) 的 Cys797 具有很高的反应性。在细胞中，CFA-喹唑啉在广泛的浓度范围内（0.1-10 μM）比相应的迈克尔受体对 EGFR 具有更高的靶标特异性。CFA 衍生物的半胱氨酸加合物易水解并可逆地生成完整的巯基，但在 EGFR 的溶剂隔离的 ATP 结合口袋中稳定。这种依赖于环境的水解可能会降低基于 CFA 的药物对靶外蛋白的修饰。CFA 喹唑啉 NS-062 的口服给药显著抑制了小鼠异种移植模型中的肿瘤生长。此外，CFA 修饰的吡唑并嘧啶不可逆地抑制了布鲁顿酪氨酸激酶，具有更高的靶标特异性。这些结果表明 CFA 作为 TCI 的新型弹头具有实用性。

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用氯氟乙酰胺选择性且可逆地修饰激酶半胱氨酸。

Selective and reversible modification of kinase cysteines with chlorofluoroacetamides.

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